Since HANA uses a different underlying architecture, there would be some impact to the custom ABAP Code. Check it out on what you need to do for HDB Migration?

What is HANA DB?

It’s very small section to describe what is HANA DB. But at a high level, these are different changes in HDB compared to other DBs:

Column based database – Data is stored by Columns instead of rows

Data is stored using the numeric keys – Numeric keys with Key value mapping tables for each character field provides the faster data selection

Inbuilt Parallel processing

No need for Secondary indexes

and many more

So, many of the SAP long time (and obviously short term) Customers are ditching their existing DB for HANA DB. Take a deep dive on what needs to happen before and after, and what should happen after that.

ABAP Custom Programs and HANA

First of all, we would need to make sure that the custom ABAP programs can work on HANA DB. It is not the compilation errors, but rather errors from the functionality perspective. For this purpose, SAP has provided this variants in Code inspector (SCI). We should take all the custom objects, and run these two checks.

FUNCTIONAL_DB

FUNCTIONAL_DB_ADDITION

Variant FUNCTIONAL_DB

These are different checks would be performed:

Finding Native SQL

Database (DB) hints

Finding ADBC (ABAP Database Connectivity) Usages

Finding usages of special DDIC function modules that check or return the existence or technical properties of certain DB indexes.

Finding accesses to technical pools/clusters of a pool/cluster table

Finding non-robust ABAP code that relies on non-ensured/implicit sorting of certain SQL queries, although no ORDER BY clause is used. There are two different checks available for finding non-robust ABAP code:

“Search problematic statement…w/o ORDER BY”

“Depooling/Declustering: Search for…w/o ORDER BY ”

Variant FUNCTIONAL_DB_ADDITION

These additional checks addition to Functional DB checks.

Checking SQL Operations without a WHERE Clause

Checking SQL operations with the addition FOR ALL ENTRIES IN , whereby in the code itself it is not ensured that the internal table < itab> is always filled.

Checking settings in DDIC tables for consistency. In particular, this checks whether table buffer settings have been maintained in a consistent manner (influence on performance).

Create Code Inspector Checks

Once you are on proper support pack, you want to get the latest variants. You can do that from the SCI – Code Inspector.

Use the menu option Utilities > Import Check Variants:

After a while, the message would appear to let you know that the new variants are imported.

Now you can see the check variant in the dropdown:

Once the code inspection checks are imported, create the object set.

Select the option “Save Selections Only” check while you create the object set. What this would do is, it will not create the Object set right away, but it would create the actual set – by pulling the different objects – when you run the Inspection.

Now create the Inspection. Create three different inspections – each for the check variant. I use the naming convention like FDB for FUNCTION_DB, FDBA – FUNCTION_DB, and PDB – PERFORMANCE_DB.

Executing the Checks remotely

Many times, you run into situation where you have the SCI code inspector checks but that not the system which contains your code base. Like you have a BW system which was upgraded earlier but your ECC system is not yet upgraded. So, if you want to start the custom code review process, you should start the remote comparison.

Basically, in this you scenario, you create some tables in the system where you can run the checks. Lets say system U. Once these tables are created in system U, you connect the RFC and try to bring the data from system N. System N is not yet upgraded. Get the all the Custom code from the system N to system U. Run the checks in the system U and get the check results.